WO2012123150A1

WO2012123150A1 - Metal-backed printing blanket

Info

Publication number: WO2012123150A1
Application number: PCT/EP2012/051015
Authority: WO
Inventors: Stefan Füllgraf; Detlef Roeder
Original assignee: Contitech Elastomer-Beschichtungen Gmbh
Priority date: 2011-03-16
Filing date: 2012-01-24
Publication date: 2012-09-20
Also published as: US20140013976A1; EP2686171A1; EP2686171B1; JP2014508062A; DE102011001316A1; CN203902005U

Abstract

The invention relates to a metal-backed printing blanket comprising the following layers: a printing layer, a metal foil, and a cover layer connected to the surface of the metal foil that faces away from the printing layer, said cover layer being irreversibly connected to the metal foil by means of a chemically-curing adhesive.

Description

description

Metal-backed blanket

The invention relates to a Metallrückendrucktuch containing a printing layer, a metal foil and a cover layer, which is connected to the side facing away from the printing layer surface of the metal foil.

Such a blanket is known for example from DE 21 2008 0045 Ul. In the blanket known from this document, the cover layer is formed as a plastic film, which is connected by means of a hot melt adhesive to the metal foil. The use of a hot melt adhesive makes it easy to create the adhesive bond between the metal foil and the plastic foil. However, it should be noted that the blanket can heat up strongly locally in a printing press. It can then happen that the hot melt adhesive between the metal foil and the plastic film melts and the plastic film separates partially from the metal foil. A detachment of the plastic film from the metal foil can lead to an undesirable thickness variation in the blanket and thus to a deteriorated print image. The invention has for its object to provide a blanket that can withstand the effects of the printing blanket during a printing process environmental influences safely.

The object is achieved according to the characterizing feature of claim 1, characterized in that the cover layer is irreversibly connected via a chemically curing adhesive to the metal foil. Under an irreversible connection in the context of the invention, a compound is to be understood, the thermal stresses up to temperatures of at least 80 ° C and the detergents used in the printing industry with the usual solvents, in particular hydrocarbon solvents, withstands.

The advantage achieved by the invention can be seen in the fact that with the aid of a chemically curing (setting) adhesive, a firm, irreversible connection between the metal foil and cover layer can be produced. Another advantage of the invention is the fact that this compound withstands the environmental conditions that a blanket is exposed to during the printing process.

Any chemically hardening adhesive can be used with which an irreversible compound in o.g. Sense can be created, e.g. Polyurethane adhesives or radiation-curing adhesives (both adhesives, by UV rays as well

Adhesives produced by other radiation sources, e.g. Electron beam sources, to be cured). According to one embodiment of the invention according to claim 2, however, the plastic film is preferably connected via an epoxy resin with the metal foil. The advantage of this development is the fact that an epoxy adhesive after curing is separable only under mechanical action. A blanket according to the development thus keeps the environment during the printing process particularly well, since the occurring during a printing process

mechanical forces can not lead to a dissolution of the adhesive bond.

According to one embodiment of the invention according to claim 3, the epoxy resin adhesive is formed two-component. In particular, the epoxy resin adhesive is made of a

Epoxy resin and a hardener built, being used as an epoxy polymer blocks, which carry so-called epoxide groups at the end. For this example, the reaction products of bisphenol-A and epichlorohydrin can be used, which form a stable thermoset after mixing with the curing agent containing amino or mercapto. The advantage of the development is the fact that the curing reaction in a two-component epoxy resin adhesive at Room temperatures can be made. It is also possible the

Curing reaction at temperatures higher than room temperature, whereby a higher strength of the bond can be achieved. According to one embodiment of the invention according to claim 4, the epoxy resin adhesive is formed one-component. In the context of the invention, a one-component epoxy resin adhesive is understood to mean an epoxy resin adhesive in which resin and hardener components were mixed in the correct ratio before the blanket was produced. One-part epoxy resin adhesives are recognized by the use of curing agents which react very slowly at room temperatures (e.g., dicyandiamide) so that the adhesive must be hot-cured. The advantage of the development is the fact that a mixing of the adhesive substance components during the production of the blanket can be avoided. According to one embodiment of the invention according to claim 5 is in the

Cover layer around a plastic film: Preferably, this consists of PET or PVC. The advantage of this development is the fact that a plastic film can be easily produced with a uniform thickness, so that it does not come in the blanket to thickness variations due to different thicknesses of the plastic film. Another advantage of the development is the fact that a plastic film with a chemically curing adhesive, in particular an epoxy adhesive, can bond very well.

According to a development of the invention according to claim 6, the cover layer is a fleece. The advantage of this development is the fact that a nonwoven can absorb the moisture, which eventually passes between the blanket and the pressure roller when washing the blanket with a detergent. The

Moisture can be distributed evenly in the web during the rotation of the pressure roller, so that there is no local thickening of the blanket. The nonwoven may be formed, for example, as paper. According to one embodiment of the invention according to claim 7, however, the fleece is preferably formed as a plastic fleece. The advantage of this development is the fact that a plastic fleece does not swell when absorbing moisture, so that due to the moisture absorbed by the fleece, there is no thickening of the blanket.

An embodiment and further advantages of the invention will be explained in connection with the following figure. The figure shows a Metallrückendrucktuch 2 with a print layer 4, a fabric layer 6, a compressible layer 8, a metal foil 10 and a cover layer 12 which is disposed on the side remote from the printing layer 4 surface of the metal foil 10. The metal foil 10 protrudes beyond the remaining layers of the printing blanket 2 at the edges, so that free ends of the metal foil are formed with the aid of which the blanket 2 is clamped in the gap of a pressure roller (not shown). The blanket may contain additional or alternative layers in addition to the fabric layer.

The cover layer 12 is irreversibly connected over an adhesive layer 14 of a chemically curing adhesive over the entire surface of the metal foil 10. The chemically hardening

Adhesive is selected so that the adhesive layer 14 the thermal loads of at least 80 ° C and the detergents used in the printing industry with the usual solvents, in particular hydrocarbon solvents, withstands. Preferably, the chemically curing adhesive in the adhesive layer 14 is as

Epoxy adhesive formed, which may be either two-component or one-component. The cover layer 12 is a plastic film or a fleece, in particular a plastic fleece. LIST OF REFERENCE NUMBERS

(Part of the description)

2 metal back printing cloth 4 printing layer

6 fabric layer

8 compressible layer 10 metal foil

12 topcoat

14 adhesive layer

Claims

claims

1. Metal backsheet (2) containing the following layers:

a printing layer (4),

a metal foil (10),

- A cover layer (12) facing away from the Dmckschicht with the

Surface of the metal foil (10) is connected,

characterized in that the cover layer (12) is irreversibly connected to the metal foil (10) via a chemically curing adhesive.

2. Metallrückendmcktuch (2) according Anspmch 1, characterized in that the cover layer (12) via an epoxy resin adhesive to the metal foil (10) is connected.

3. Metallrückendmcktuch (2) after Anspmch 2, characterized in that the epoxy resin adhesive is two-component.

4. Metallrückendmcktuch (2) after Anspmch 2, characterized in that the epoxy resin adhesive is one-component.

5. Metallrückendmcktuch (2) according to one of claims 1 to 4, characterized

characterized in that the cover layer (12) is a plastic film.

6. Metallrückendmcktuch (2) according to any one of claims 1 to 4, characterized

in that the cover layer (12) is a fleece.

7. Metallrückendmcktuch (2) after Anspmch 6, characterized in that it is the nonwoven is a plastic nonwoven.